AMENDMENT NO. 2 TO AIS – 044 (Part 2) Automotive Vehicles – Pneumatic Tyres for Passenger Car Vehicles 1.0 Page No. 8 and 9, cl. 6.1 Dimension of Tyres: Substitute following text for the existing text of entire clause 6.1: “ 6.1 TYRE DIMENSIONS 6.1.1 Tyre dimensions and profiles shall be compatible with the appropriate rims. The tyre dimensions namely section width and outer diameter shall meets the requirements given in Annexure A, and method of measurement given in Annexure D. 6.1.1.1 Section Width of Tyre: - Tyre size designation shall be as per tables given in Annexure A, the section width shall be deemed to be that opposite the tyre size designation in those tables. NOTE - Adjustment to tyre section width/overall width –Within the parameters of specified permissibility of a wider or narrower rim than the recommended rim size, the guidelines for the necessary adjustment are – Sectional width or overall width: 5mm increase or reduction (as applicable) for every 0.50 difference in nominal rim width. 6.1.1.2 Tyre outer diameter - Tyre size designation shall be as per tables given in Annexure A. The outer diameter shall not be exceed the minimum and maximum diameter values specified in Annexure A. 6.1.2 For the sizes listed in Annexure A, but tolerance are not given and the tyres sizes which are not listed in Annexure A, the section width and outer diameter shall be calculated by using following formulae: 6.1.2.1 Section width of tyre 6.1.2.1.1 The section width shall be calculated by using following formula S = S1 + K (A - A1), Where, S = “Section width” expressed in millimeters measured on measuring rim S1 = “Nominal section width” in millimeters, as set out on the tyre sidewall in the tyre size designation A = Width of the measuring rim in millimeters, as shown by the manufacturer in the technical specification A1 = Theoretical rim width expressed in millimeters A1 shall be taken to equal S1 multiplied by the factor X as specified by the manufacturer, and K shall be taken to equal 0.4. 1/8
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AMENDMENT NO. 2
TO AIS – 044 (Part 2)
Automotive Vehicles – Pneumatic Tyres for Passenger Car Vehicles
1.0 Page No. 8 and 9, cl. 6.1 Dimension of Tyres: Substitute following text for the existing text of entire clause 6.1: “ 6.1 TYRE DIMENSIONS 6.1.1 Tyre dimensions and profiles shall be compatible with the appropriate rims.
The tyre dimensions namely section width and outer diameter shall meets the requirements given in Annexure A, and method of measurement given in Annexure D.
6.1.1.1 Section Width of Tyre: - Tyre size designation shall be as per tables given in
Annexure A, the section width shall be deemed to be that opposite the tyre size designation in those tables.
NOTE - Adjustment to tyre section width/overall width –Within the parameters of specified permissibility of a wider or narrower rim than the recommended rim size, the guidelines for the necessary adjustment are – Sectional width or overall width: 5mm increase or reduction (as applicable) for every 0.50 difference in nominal rim width.
6.1.1.2 Tyre outer diameter - Tyre size designation shall be as per tables given in
Annexure A. The outer diameter shall not be exceed the minimum and maximum diameter values specified in Annexure A.
6.1.2 For the sizes listed in Annexure A, but tolerance are not given and the tyres
sizes which are not listed in Annexure A, the section width and outer diameter shall be calculated by using following formulae:
6.1.2.1 Section width of tyre 6.1.2.1.1 The section width shall be calculated by using following formula
S = S1 + K (A - A1), Where, S = “Section width” expressed in millimeters measured on measuring
rim S1 = “Nominal section width” in millimeters, as set out on the tyre
sidewall in the tyre size designation A = Width of the measuring rim in millimeters, as shown by the
manufacturer in the technical specification A1 = Theoretical rim width expressed in millimeters
A1 shall be taken to equal S1 multiplied by the factor X as specified by the manufacturer, and K shall be taken to equal 0.4.
1/8
6.1.2.1.2 For the existing types of tyres whose designation is given in the first column
of the table in Annexure A to this standard, the section width shall be deemed to be that given opposite the tyre designation in those tables.
6.1.2.1.3 The actual measured overall width of the tyre may be less than the section
width determined as detailed in para 6.1.2.1.1 and 6.1.2.1.2. 6.1.2.1.4 The measured overall width may exceed by value of 4% in case of radial ply
tyre and by 6% in case of diagonal (bias-ply) tyres. 6.1.2.2 Outer diameter of the tyre 6.1.2.2.1 The outer diameter of the tyre shall be calculated by using following formula:
D = d + 2H, Where, D = outer diameter expressed in mm d = nominal rim diameter expressed in mm H = nominal tyre height = S1 × 0.01 Ra, S1 = nominal section width Ra = nominal aspect ratio as set out in the description on the tyre sidewall.
6.1.2.2.2 For the existing types of tyres whose designation is given in the first column
of the table in Annexure-A to this standard, the outer diameter shall be deemed to be that given opposite the tyre designation in those tables.
6.1.2.2.3 The outer tyre diameter shall not be outside the minimum and maximum
diameter values obtained from the following formulae:
Dmin = d + (2H × a) Dmax = d + (2H × b), Where, (a) For the sizes listed in Annexure-A
H = 0.5 (D-d) for references see paragraph 6.1.2.2.1
(b) For other sizes which are not listed in Annexure-A `H’ and `d’ are as defined in paragraph 6.1.2.2.1
(c) Coefficients `a’ and `b’ are respectively
Coefficient `a’ = 0.97 Coefficient `b’ =
Radial Diagonal Coefficient `b’ for ordinary (road typetyres
For normal use ty 1.04 1.08
(d) For snow tyres the overall diameter (Dmax) established in conformity with
the above may be exceeded by 1%
2/8
2.0 Page No. 11, cl. 6.7, Tyre Uniformity Test
Delete entire clause 6.7 and Annexure K 3.0 Page No. 11, cl. 6.8, Tyre Stiffness Test
Delete entire clause 6.8 and Annexure L
4.0 Page No. 14 to 19 Annexure : A
Substitute following text and tables for existing text and tables:
ANNEXURE A
GENERAL DATA AND ROAD INFLATION PRESSURES
Passenger Car Tyres (Diagonal Ply) ‘95’ Super Balloon Series 13 and Smaller Rim Diameter Codes
General Dimension Data
NEW TYRE- INFLATED Section Width in mm Overall Dimeter in mm
PRINTED BY THE AUTOMOTIVE RESEARCH ASSOCIATION OF INDIA
P.B. NO. 832, PUNE 412 004
ON BEHALF OF AUTOMOTIVE INDUSTRY STANDARDS COMMITTEE
UNDER
CENTRAL MOTOR VEHICLE RULES - TECHNICAL STANDING COMMITTEE
SET-UP BY MINISTRY OF SHIPPING, ROAD TRANSPORT & HIGHWAYS
( DEPARTMENT OF ROAD TRANSPORT & HIGHWAYS ) GOVERNMENT OF INDIA
September 2005
8/8
AMENDMENT NO. 1
TO AIS – 044 (Part 2)
Automotive Vehicles – Pneumatic Tyres for Passenger Car Vehicles
1. Page no. 8: Add new clause 4.3.1 as follows:
4.3.1 Family of Tyre The understanding of “ Family / Range of Tyres ” would mean tyres which do not differ in the following parameters : a) Registered name of the company b) Manufacturing country c) Manufacturing plant d) Application category ( ordinary or snow ) e) Construction type ( Standard or reinforced ) f) Construction cord material ( Nylon / Polyester / Polyamide
– one type and any other material different family ) g) Structure ( Diagonal / Radial / Bias belted ) h) Tyre size designation i) Speed category j) Tube / Tubeless ( worst case is tubeless ) k) Load index or Load capacity l) Ply rating of tyres but having different brand names / trade names and trade descriptions or trade marks.
2. Page no. 9 and 10, Clause 6.4.2 , Delete alphabet “ B) ” in front of sentence “ For tyres--------”.
Add alphabet “ B) ” in front of sentence “ In the case of the tyres--------”.
3. Page no. 10, Clause 6.6.1, In the sentence after “-------Annex H ” add “ and tyre shall comply with
ON BEHALF OF : AUTOMOTIVE INDUSTRY STANDARDS COMMITTEE
UNDER
CENTRAL MOTOR VEHICLE RULES - TECHNICAL STANDING COMMITTEE
SET-UP BY MINISTRY OF ROAD TRANSPORT & HIGHWAYS
GOVERNMENT OF INDIA
October 2004
AIS-044 (Part 2)
AUTOMOTIVE INDUSTRY STANDARD
Automotive Vehicles – Pneumatic Tyres for Passenger Car Vehicles
PRINTED BY:
THE AUTOMOTIVE RESEARCH ASSOCIATION OF INDIA P.B.NO.832, PUNE 411 004
ON BEHALF OF:
AUTOMOTIVE INDUSTRY STANDARDS COMMITTEE
UNDER CENTRAL MOTOR VEHICLES RULES – TECHNICAL STANDING COMMITTEE
SET-UP BY
MINISTRY OF ROAD TRANSPORT & HIGHWAYS GOVERNMENT OF INDIA
March 2004
AIS-044 (Part 2)
Status chart of the Standard to be used by the purchaser for updating the record
Sr.No.
Corri-genda
Amend- ment
Revision Date Remark Misc.
General remarks:
AIS-044 (Part 2)
Introduction
The Government of India felt the need for a permanent agency to expedite the publication of standards and development of test facilities in parallel when the work on the preparation of the standards is going on, as the development of improved safety critical parts can be undertaken only after the publication of the standard and commissioning of test facilities. To this end, the Ministry of Surface Transport (MoST) has constituted a permanent Automotive Industry Standards Committee (AISC) vide order No. RT-11028/11/97-MVL dated September 15, 1997. The standards prepared by AISC will be approved by the permanent CMVR Technical Standing Committee (CTSC). After approval, the Automotive Research Association of India, (ARAI), Pune, being the secretariat of the AIS Committee, has published this standard. For better dissemination of this information ARAI may publish this document on their Web site. The tyre is an important safety critical item. With the new generation vehicles and development in road infrastructure facilities the vehicle speeds are increasing day by day. To ensure safety of operation of tyres and vehicles, there was a need for a standard specifying the performance requirements of the pneumatic tyres. Considerable assistance has been taken from ECE R-30 “Uniform provisions concerning the approval of pneumatic tyres for motor vehicles and their trailers” and National and International tyre standards. The Automotive Industry Standards Committee (AISC) responsible for preparation of this standard is given in Annexure:N.
AIS-044 (Part 2)
Automotive Vehicles- Pneumatic Tyres for Passenger Car Vehicles
1.0 SCOPE
1.1 This standard prescribes the general, dimensional and performance
requirements of new pneumatic tyres designed for vehicles in categories M1, T1 and T2.
2.0 DEFINITIONS
2.1 "Type of Pneumatic Tyre" means a category of pneumatic tyres which do
not differ in such essential respects as: 2.1 The manufacturer’s name and brand name;
2.1.1 Tyre size designation;
2.1.2 Category of use; Ordinary (road tyre) Snow tyre
2.1.5 The Tyre cross-section; Dimension when fitted to a specified rim
2.2 “Snow Tyre” means a tyre whose tread pattern and whose structure are
primarily designed to ensure in mud and fresh or melting snow a performance better than of an ordinary (road-type) tyre. The tread pattern of a snow tyre generally consists of groove (rib) and /or solid block elements more widely spaced than on an ordinary (road type) tyre.
2.3 "Structure" of a pneumatic tyre means the technical characteristics of the
tyre's carcass. The following structures are distinguished in particular: 2.3.1 "Diagonal or "bias-ply" describes a pneumatic-tyre structure in which the
ply cords extend to the beads and are laid at alternate angles of substantially less than 90º to the center line of the tread;
2.3.2 "Bias-belted" describes a pneumatic-tyre structure of diagonal (bias-ply)
type in which the carcass is restricted by a belt comprising two or more layers of substantially inextensible cord material laid at alternate angles close to those of the carcass;
1
AIS-044 (Part 2)
2.3.3 "Radial" describes a pneumatic-tyre structure in which the ply cords
extend to the beads and are laid substantially at 90° to the centerline of the tread, the carcass being stabilised by an essentially inextensible circumferential belt;
2.3.4 "Reinforced" or "Extra Load" describes a pneumatic tyre structure in
which the carcass is more resistant than that of the corresponding standard tyre;
2.4 "Bead" means the part of a pneumatic tyre which is of such shape and
structure as to fit the rim and hold the tyre on it. See Figure 1. 2.5 "Cord" means the strands forming the fabric of the plies in pneumatic
tyre; See Figure 1. 2.6 i) "Ply" means a layer of rubber-coated parallel cords; See Figure 1.
ii) "Ply Rating" means to identify a given tyre with its maximum
recommended load when used in a specific type of service. It is an index of tyre strength and does not necessarily represent the number of cord plies in the tyre.
2.7 "Carcass" means that part of a pneumatic tyre other than the tread and the
rubber side walls which, when inflated, bears the load; See Figure 1. 2.8 "Tread" means that part of a pneumatic tyre which comes into contact
with the ground; See Figure 1. 2.9 "Side Wall" means the part of a pneumatic tyre between the tread and the
bead; See Figure 1. 2.10 “Lower area of Tyre” means the area included between the point of
maximum section width of a tyre and area designed to be covered by the edge of rim. See Figure 1.
2.11 "Tread Groove" means the space between two adjacent ribs or blocks in
the tread pattern; See Figure 1. 2.12 "Section width" means the linear distance between the outsides of the side
walls of an inflated pneumatic tyre, excluding elevations due to labelling (marking), decoration or protective bands or ribs; See Figure 1.
2.13 "Overall width" means the linear distance between the outsides of the
sidewalls of an inflated pneumatic tyre, including labelling (marking), decoration and protective bands or ribs. See Figure 1.
2.14 "Section height" means a distance equal to half the difference between the
outer diameter of the tyre and the nominal rim diameter. See Figure 1. 2
AIS-044 (Part 2)
2.15 "Nominal aspect ratio (Ra)" means the centuple of the number obtained
by the dividing the number expressing the section height in mm by the number expressing the nominal section width in mm;
2.16 "Outer Diameter" means the overall diameter of an inflated new
pneumatic tyre. See Figure 1 2.17 "Tyre-size designation" is
2.17.1 a designation showing:
2.17.1.1 The nominal tyre section width code - means a tyre section width
indicated in the tyre size –designation (Refer Annexure C). 2.17.1.2 The nominal aspect ratio
2.17.1.3 The nominal rim diameter code
2.18 "Nominal Rim Diameter" means the diameter of the rim on which a tyre
is designed to be mounted; 2.19 "Rim" means the support for a tyre-and-tube assembly, or for a tubeless
tyre, on which the tyre beads are seated; See Figure 1. 2.20 “Theoretical Rim” means the notional rim whose width would be equal
to x times the nominal section width of a tyre. The value of x shall be specified by the manufacturers of that tyre.
2.21 "Measuring Rim " means the rim on which a tyre is required to be fitted
for size measurements. 2.22 "Test Rim" means the rim on which a tyre is required to be fitted for
testing. 2.23 "Chunking" means the breaking away of pieces of rubber from the tread; 2.24 "Cord separation" means the parting of the cords from their rubber
coating;
2.25 "Ply separation" means the parting of adjacent plies; 2.26 "Tread separation" means the pulling away of the tread from the carcass. 2.27 "Tread-wear indicators" means the projections within the tread grooves
designed to give a visual indication of the degree of wear of the tread;
2.28 Load -Capacity index" means a number associated to the reference mass a tyre can carry when operated in conformity with requirements governing utilisation specified by the manufacturer.
2.29 "Speed Category" means the maximum speed, which the tyre can sustain, expressed by speed category symbol (see table below).
3
AIS-044 (Part 2)
Speed Category symbol Maximum speed (km/h)
L 120 M 130 N 140 P 150 Q 160 R 170 S 180 T 190 U 200 H 210 V 240 W 270 Y 300
2.30 Tread Pattern Grooves 2.30.1 "Principal Grooves’ means the wide grooves positioned in the central
zone of the tyre tread, which have the tread-wear indicators (see para. 2.27) located inside them.
2.30.2 "Secondary Grooves" means the supplementary grooves of the tread
pattern which may disappear in the course of the tyre’s life. 2.31 "Maximum Load rating’ means the maximum mass the tyre is rated to
carry. 2.31.1 For speed not exceeding 210 km/h the maximum load rating shall not
exceed the value associated with the load capacity index of the tyre. 2.31.2 For speed higher than 210km/h, but not exceeding 240 km/h (tyres
classified with Speed Category Symbol "V") the maximum load rating shall not exceed the percentage of the value associated with the load capacity index of the tyre, indicated in the table below, with reference to the speed capability of the car to which the tyre is fitted.
For intermediate maximum speeds linear interpolations of the maximum load rating are allowed.
2.31.3 For speed higher than 240 km/h(tyres classified with Speed Category
Symbol ’W’) the maximum load rating shall not exceed the percentage of the value associated with the load capacity index of the tyre, indicated in the table below, with reference to the speed capability of the car to which the tyre is fitted.
Maximum speed (km/h) Maximum Load Rating (%)
240 100 250 95 260 90 270 85
For intermediate maximum speeds linear interpolations of the maximum load rating are allowed.
2.31.4 For speeds higher than 270 km/h (tyres classified with Speed Category
Symbol ’Y’) the maximum load rating shall not exceed the percentage of the value associated with the load capacity index of the tyre , indicated in the table below, with reference to the speed capability of the car to which the tyre is fitted.
Maximum speed (km/h) Maximum Load Rating (%)
270 100 280 95 290 90 300 85
For intermediate maximum speeds linear interpolations of maximum load rating are allowed.
2.31.5 For speeds lower or equal to 60 km/h the maximum load rating must not
exceed the percentage of mass, associated with the load capacity index of the tyre indicated in the table below with reference to the maximum design speed of the vehicle to which the tyre is to be fitted.
Maximum speed (km/h) Maximum Load Rating (%)
25 142 30 135 40 125 50 115 60 110
5
AIS-044 (Part 2)
2.31.6 For speeds in excess of 300 km/h, the maximum load rating must not
exceed the mass specified by the tyre manufacturer with reference to the speed capacity of the tyre. For intermediate speeds between 300 km/h and the maximum speed permitted by the tyre manufacturer, a linear interpolation of the maximum load rating applies.
2.32 “International Tyre Standard” means any one of the following standard
documents:
a) The European Tyre and Rim Technical Organisation (ETRTO): ‘Standard Manual’ b) The Tire and Rim Association Inc. (TRA):‘Year Book’ c) The Japanese Automobile Tire Manufacturers Association
(JATMA): ‘Year Book’
d) Economic Commission of Europe Regulation (ECE R-30):
3.0 MARKINGS
3.1 Pneumatic tyres submitted for approval shall display on both sidewall in the case of symmetrical tyres and at least on the outer sidewall in the case of asymmetrical tyres following markings:
3.1.1 The manufacturer’s name or trade name (May be placed on one side wall
only).
3.1.2 The tyre size designation as defined in para. 2.17.
3.1.3 An indication of the structure as follows:
3.1.3.1 On diagonal (bias-ply) tyres: No marking or the letter “ – “, or the letter “D” placed in front of the rim-diameter marking.
3.1.3.2 On radial-ply tyres: the letter “R” placed in front of the rim-diameter
marking and, optionally, the word “RADIAL”. 3.1.3.3 On bias – belted tyres, the Letter “B” placed in front of the rim-diameter
marking, and in addition the word “BIAS-BELTED”.
3.1.3.4 On radial – ply tyres suitable for speeds higher than 240 Km/hr the Letter ‘R’, placed in front of the rim diameter marking, may be replaced with ‘ZR’.
3.1.4 The speed-category symbol.
6
AIS-044 (Part 2)
3.1.4.1 An indication of the tyre’ s nominal speed category in the form of the
symbol prescribed in para. 2.29 above.
3.1.4.2 Tyres suitable for speeds in excess of 300 km/h must be marked with the service description (load index & speed symbol) corresponding to the performance up to 300 km/h.
3.1.5 The inscription M+S or M.S or M&S in the case of a snow tyre.
3.1.6 The load-capacity indices as defined in para.2.28 of this Regulation or
maximum permissible load and ply rating. 3.1.7 Maximum permissible tyre pressure in kPa or bar or kg/cm2 or any
combination of this units.
3.1.8 The word “ TUBELESS” if the tyre is designed for use without an inner tube.
3.1.9 Manufacture’ s Code (may be placed on one side wall only).
3.1.10 Week and year code or Month and Year code of Manufacture (may be
placed on One side wall only). 3.1.11 In the case of tyres which can be regrooved , symbol “U” at least 20 mm
in diameter, or the word “ REGROOVABLE” , moulded into or on to each sidewall.
3.1.12 Tread wear indicators mark shall be provided at minimum six/four(as
applicable) places along the circumference to give indication to the user for location of tread wear indicator.
3.2 Examples of Tyre size designation are given in Annexure ‘J’ .
3.3 The markings referred to in para. 3.1 and the approval mark prescribed in
AIS-037 shall be moulded into or onto the tyres. They shall be clearly legible and situated in the lower area of the tyre on at least one of its sidewalls, except for the inscription mentioned at para 3.1.1.
3.4 Tyres shall provide adequate space for the approval mark
3.5 Annexure ‘C’ provides layout for tyre markings 4.0 APPLICATION FOR TYPE APPROVAL
4.1 The manufacturer shall submit the details as specified in Annexure M.
7
AIS-044 (Part 2)
4.2 Number of tyre to be provided shall be minimum “ 3 ” numbers in case of
tube tyre and “ 4 ” numbers in the case of tube less tyres or at the discretion of test agency.
4.3 For Type Approval of tyre belonging to one family of tyre , brand of the
tyre to be selected for type approval shall be left to test agency. Worst-case selection may be made at the discretion of the test agency.
4.4.1 Type approval procedure shall be as decided by Central Motor Vehicles
Rules - Technical Standing Committee (CMVR-TSC) and Ministry of Road Transport and Highways (MoRT&H).
5.0 TYPE APPROVAL
5.1 If the type of pneumatic tyre submitted for approval in pursuance of this
standard meets the requirements of para. 3.1 above and para. 6.0 below, approval of that type of tyre shall be granted. However, uniformity test mentioned at para 6.7 shall be carried out, when test facility is established by test agency.
5.2 Approval number shall be as decided by CMVR-TSC and MoRT&H.
6.0 REQUIREMENTS RELATING TO TYRES
6.1 Dimensions of tyres
6.1.1 Section width of a tyre.
6.1.1.1 For the existing type of tyre whose size designation shall be as per the
table in Annexure A, the section width shall be that given opposite the tyre size designation in these tables.
6.1.2 Tyre outer diameter 6.1.2.1 For the existing type of tyre whose size designation shall be as per the
table in Annexure A, the outer diameter shall be that given opposite the tyre size designation in these tables.
6.1.3 Tyre section width specification
6.1.3.1 The overall width of a tyre shall conform to dimensions mentioned in
Annexure A.
6.1.4 Tyre outer-diameter specifications
6.1.4.1 The outer diameter of the tyre shall conform to dimensions mentioned in Annexure A
6.1.5 Tyre measuring method - Tyre dimensions shall be measured as specified
in Annexure D. 8
AIS-044 (Part 2)
6.1.6 Tyre sizes covered in other International tyre standard (ECE, JATMA,
ETRTO and T&RA) shall meet the dimensional requirements of respective standards. Further, if same size of tyre with different dimensions appears in more than one standard. It shall meet the dimension requirement of any one standard as per priority ITTAC, JATMA, ECE, T&RA, ETRTO.
6.2 Load / Speed Performance Test
6.2.1 The pneumatic tyre shall undergo a load/speed performance test carried
out by the procedure described in Annexure E to this Standard.
6.2.1.1 Where application is made for tyres identified by means of letter code “ ZR” within the size designation and suitable for speed over 300 km/h, the above speed test is carried out on one tyre at the load and speed conditions marked on the tyre. Another speed test must be carried out on a second sample of the same tyre type at the load and speed conditions specified as maximum by the tyre manufacturer.
The second test may be carried out on the same type sample if the tyre manufacturer agrees.
6.2.2 A tyre which after undergoing the speed test does not exhibit any tread
separation, ply separation, cord separation, chunking or broken cords shall be deemed to have passed the test.
6.2.2.1 However, a tyre marked with speed category symbol ‘Y’ which, after
undergoing the relevant test, does exhibit partial chunking due to the specific test conditions is deemed to have passed the test.
6.2.3 The outer diameter of the tyre, measured six hours after the speed
performance test, must not differ by more than ± 3.5% from the outer diameter as measured before the test.
6.3 Endurance Performance Test
6.3.1 The pneumatic tyre shall undergo a endurance performance test carried out
by the procedure described in Annexure F to this Standard.
6.3.2 A tyre which after undergoing the endurance performance test does not exhibit any tread separation, ply separation, cord separation, chunking or broken cords shall be deemed to have passed the test.
6.4 Bead Unseating Resistance Test for Tubeless Tyre
6.4.1 The tubeless pneumatic tyre shall undergo bead-unseating test carried out
by procedure described in Annexure G to this Standard. 6.4.2 The minimum bead unseating resistance value at any measuring point shall
not be less than the value mentioned in below Table.
9
AIS-044 (Part 2)
Table 1
A) Minimum Bead Unseating Resistance Value (Tubeless Tyres)
B) For tyres where Load index is marked
In the case of the tyre of which the load capability index is not marked, it shall be classified according to the maximum load capability corresponding to load capability index.
6.5 Tread-wear Indicators
6.5.1 The pneumatic tyre shall include not less than six transverse rows of wear
indicators, approximately equally spaced and situated in the principal grooves of the tread. The tread-wear indicators shall be such that they cannot be confused with the rubber ridges between the ribs or blocks of the tread.
6.5.2 However, in the case of tyres of dimensions appropriate for mounting on
rims of a nominal diameter of 12 or less, minimum 4 no of tread-wear indicators shall be accepted.
6.5.3 The tread-wear indicators must provide a means of indicating with a
tolerance of + 0.60/-0.00 mm, when the tread grooves are no longer more than 1.6 mm deep.
6.5.4 The height of tread-wear indicators is determined by measuring the
difference between the depth, from the tread’ s surface, to the top of the tread-wear indicator and to the bottom of the tread groove close to the slope at the base of the tread-wear indicator.
6.6 Tyre Strength Test
6.6.1 The tyre strength test (Plunger test) shall be carried out on a tyre in
accordance with method set out in Annexure H.
6.6.2 The minimum breaking energy value at any measuring point shall not be less than the value mentioned in below table.
10
Nominal Section Width under 160
Nominal Section Width 160 to 205 exclusive
Nominal Section Width 205 or more
6670 N (680 kgf)
8890 N (905 kgf)
11120 N (1135 kgf)
Load Capability Index 75 or less
Load Capability Index 76 to 92
Load Capability Index 93 or more
6670 N (680 kgf)
8890 N (905 kgf)
11120 N (1135 kgf)
AIS-044 (Part 2)
STATIC BREAKING ENERGY FOR PASSENGER CAR TYRES
(Diagonal Ply)
Breaking Energy
Tyre Size Ply Rating
Plunger Diameter
(mm.)
Inflation Pressure
(kPa) Rayon J (kg-cm) Minimum
Nylon J (kg-cm) Minimum
Upto 6.00 (nominal section)
4
6
19 ± 0.2
19 ± 0.2
165
195
113 (1152)
169 (1723)
181 (1845) 271 (2763)
Above 6.00
(nominal section)
Including F78-15
4
6
8
19 ± 0.2
19 ± 0.2
19 ± 0.2
195
195
220
186 (1896)
280 (2852)
373 (3802)
294 (2998)
441 (4497)
588 (5996)
NOTES: 1 Recommended rim sizes shall be used for the breaking energy test. 2 For F78-15 4PR breaking energy test, inflation pressure will be 170 kPa.
STATIC BREAKING ENERGY FOR PASSENGER CAR TYRES
(Radial Ply)
Tyre Size Plunger Diameter
mm
Inflation Pressure
kPa
Breaking Energy
Nominal Section Width
J (kg-cm) Minimum
Under 160
19 ± 1.6
180 + 5
220 (2245)
160 or more
19 ± 1.6
180 + 5
295 (3010)
6.7 Tyre Uniformity Test 6.7.1 Each type of pneumatic tyre shall undergo tyre uniformity test carried out
by the procedure described in Annexure K to this Standard. 6.7.2 This test shall be for record only. 6.8 Tyre Stiffness Test 6.8.1 Each type of pneumatic tyre shall undergo tyre stiffness test carried out by
the procedure described in Annexure L to this Standard. 6.8.2 This test shall be for record only.
11
AIS-044 (Part 2)
7.0 MODIFICATIONS AND EXTENSION OF APPROVAL OF TYRE
TYPE 7.1 Every modification of the type of pneumatic tyre shall be notified to test
agency which approved the type of pneumatic tyre. The test agency may then either.
7.1.1 Consider that the modifications made are unlikely to have an appreciable
adverse effect and that in any case, the pneumatic tyre still compiles with the requirements; or
7.1.2 Require a further test report from the technical service responsible for
conducting the test. 7.2 A modification of the tread pattern of the tyre shall not be considered to
necessitate a repetition of the tests prescribed in para 6 of this Regulation. For considering whether any further verification is required or not, guide-lines given in para 7.3 (Criteria for Extension of Approval) may be used.
7.3 Criteria For Extension of Approval 7.3.1 In case of following changes, the verification shall be carried out for
establishing compliance of the changed parameters to the requirements specified in this standard:
7.3.1.1 Size designation:
7.3.1.2 If the rim diameter is within, and the section is not more than already type approved sizes, test need not be carried out for approval
7.3.1.4 Tyre Construction (e.g. diagonal / bias ply, radial, reinforced, etc)
7.3.1.5 Increase in Speed category
7.3.1.6 Increase in Load Capacity Index/ Maximum load carrying capacity
7.3.1.7 Colour of side wall if changed to white
8.0 CONFORMITY OF PRODUCTION
8.1 Tyres approved under this regulation shall be so manufactured as to
conform to the type approved, by meeting the requirements set forth in paras. 6.1 & 3.0, 6.2, 6.3, 6.4 and 6.6 for the following tests respectively.
8.1.1 Dimensions & marking,
8.1.2 Load / Speed performance test,
12
AIS-044 (Part 2)
8.1.3 Endurance performance test,
8.1.4 Bead unseating resistance test for tubeless tyre,
8.1.5 Tyre strength test.
8.2 The authority, which has granted type approval, may at any time verify the conformity control methods applied in each production facility.
8.3 Conformity of production procedure shall be as decided by CMVR-TSC and MoRT&H.
8.0 PENALTIES FOR NON-CONFORMITY OF PRODUCTION 9.1 As and when decided by CMVR-TSC and MoRT&H. 10.0 PRODUCTION DEFINETLY DISCONTINUED 10.1 As and when decided by CMVR-TSC and MoRT&H.
(Refer Para. 2.0)
13
AIS-044 (Part 2)
ANNEXURE – A (Refer Para 6.1)
PASSENGER CAR TYRES (Diagonal Ply)
“ 95” Super Balloon Series 13 and Smaller Rim Dia Codes General dimension data
NEW TYRE- INFLATED Tyre Size
Designation P.R. RIM Rec. Alt.
Design Section Width
mm
Min. Section Width
mm
Max. Overall Width
mm
Design Overall
Dia. mm
Min. Overall
Dia. Mm
Max. Overall
Dia. mm
5.20-10 6 3½J
4J
132
137
127
132
140
145
508 500 526
4.50-12 6 3½J
4J
122
127
117
122
130
135
529 522 545
5.20-12 6 3½J
4J
132
137
127
132
140
145
558 550 576
5.20-13 6 3½J
4J
132
137
127
132
140
145
582
574
600
5.60-13 6 4J
4½J
145
150
139
144
154
159
600
592
619
5.90-13 6 4J
4½J
150
155
144
149
159
164
616
607
636
6.40-13 6 4½J
5Kor J
163
168
156
161
173
178
642
633
664
14
AIS-044 (Part 2)
PASSENGER CAR TYRES (Diagonal Ply)
“ 95” Super Balloon Series 14 and 15 Rim Dia Codes General dimension data
NEW TYRE- INFLATED Tyre Size
Designation P.R. RIM
Rec Alt. Design
Section Width mm
Min. Section Width
mm
Max. Overall Width
mm
Design Overall
Dia mm
Min. Overall
Dia Mm
Max. Overall
Dia mm
5.20-14 6 3½J
4J
132
137
127
132
140
145
612 604 630
5.60-14 6 4J
4½J
145
150
139
144
154
159
626 618 645
5.90-14 6 4J
4½J
150
155
144
149
159
164
642 633 662
5.60-15 6 4J
4½J
145
150
139
144
154
159
650 642 669
5.90-15 6 4J
4½J
150
155
144
149
159
164
668 659 688
6.40-15
6 4½J
5J
163
168
156
161
173
178
692 683 714
6.70-15 6 4½J
5J
170
175
163
168
180
185
710 700 733
15
AIS-044 (Part 2)
PASSENGER CAR TYRES (Diagonal Ply)
“ 88” Low Section Series General dimension data
NEW TYRE- INFLATED Tyre Size
Designation P.R. RIM
Rec Alt. Design
Section Width
mm
Min. Section Width
mm
Max. Overall Width
mm
Design Overall
Dia mm
Min. Overall
Dia mm
Max. Overall
Dia mm
7.25-13 6 5J
5½J
184
189
177
182
195
200
654 644 677
7.00-14 6 5J
5½J
178
183
171
176
189
194
668 659 690
7.50-14 6 5½J
6J
190
195
182
187
201
206
688 678 711
PASSENGER CAR TYRES (Diagonal Ply)
“ 82” Super Low Section Series General dimension data
NEW TYRE- INFLATED Tyre Size Designation
P.R. RIM Rec Alt.
Design Section Width
mm
Min. Section Width
mm
Max. Overall Width
mm
Design Overall
Dia mm
Min. Overall
Dia mm
Max. Overall
Dia mm
4 5.65-12
6
4J 131 126 139 522 515 537
4 6.15-13
6
4½J 157 151 166 582 574 600
6.95-14 6 5J
5½J
178
183
171
176
189
194
638 630 658
8.25-14 6 6J 6K
5½J
208
203
200
195
220
215
690 680 713
PASSENGER CAR TYRES (Diagonal Ply)
Alpha-numeric ‘78’ Series General dimension data
NEW TYRE- INFLATED Tyre Size Designation
P.R. RIM Rec. Design
Section Width
mm
Min. Section Width
mm
Max. Overall Width
mm
Design Overall
Dia. mm
Min. Overall
Dia. mm
Max. Overall
Dia. Mm
4 F78-15
6
5½J
196
188
206
697
688
706
16
AIS-044 (Part 2)
MILLIMETRIC SIZES OF PASSENGER CAR TYRES (Radial Ply)
General dimension data
New Tyre Inflated
Overall section Width (mm) Overall Diameter (mm)
Tyre Size Designation
Rec Rim Sizes Measuring
Rim is underscored
Design Min Max Design Min Max
‘80’ Series
145/80 R10
4J
4½J
145
150
139
144
152
157
486
479
493
135/80 R12 3½J
4J
133
138
128
132
140
145
521 515 527
145/80 R12 4J
4 ½J
145
150
139
144
152
157
537 530 544
155/80 R12 4 ½J
4J
157
152
151
146
165
160
553 546 560
145/80 R13 4J
4 ½J
145
150
139
144
152
157
562 555 569
155/80 R13 4½J
5J
157
162
151
156
165
170
578 571 585
165/80 R13 4½J
5J
165
170
158
163
173
178
594 586 602
175/80 R13 5J
5 ½J
177
182
170
175
186
191
610 602 618
145/80 R14 4J
4½J
145
150
139
144
152
157
588 581 595
155/80 R14 4½J
5J
157
162
151
156
165
170
604 597 611
165/80 R14 4 ½J
5J
165
170
158
163
173
178
620 612 628
175/80 R14 5J
5½J
177
182
170
175
186
191
636 628 644
165/80 R15 4½J
5J
165
170
158
163
173
178
645 637 653
195/80 R15 5½J
6J
196
201
188
193
206
211
693 684 702
17
AIS-044 (Part 2)
New Tyre Inflated
Overall section Width (mm) Overall Diameter (mm)
Tyre Size Designation
Rec. Rim Sizes
Measuring Rim is underscored Design Min Max Design Min Max
“ 75” Series
215/75 R15
6J
5 ½J
216
211
208
203
227
222
703
693
713
235/75R15 6½J
7J
235
240
226
231
244
249
733 722 744
225/75R16 6J
6½J
223
228
214
219
234
239
744 733 754
“ 70” Series
145/70R12
4J
4½J
145
150
139
144
151
156
509 503 515
155/70 R12 4 ½J
5J
157
162
151
156
163
168
523 516 530
145/70 R13 4 ½J
4J
150
145
144
139
156
151
534 528 540
155/70R13 4½J
4J
157
152
151
146
163
158
548 541 555
165/70 R13 5J
4½J
170
165
163
158
177
172
562 555 569
175/70 R13 5J
5 ½J
177
182
170
175
184
189
576 569 583
175/70 R14 5J
5½J
177
182
170
165
184
179
602 595 609
185/70 R14 5½J
6J
189
194
181
186
197
202
616 608 624
195/70R14
6J
5½J
201
196
193
188
209
204
630 622 638
195/70 R15 6J
5½J
201
196
193
188
209
204
655 647 663
225/70 R15 6½J
7J
228
233
219
224
237
241
697 688 706
265/70 R16 8J
7½J
272
267
261
256
283
278
778 767 789
18
AIS-044 (Part 2)
New Tyre Inflated
Overall section Width (mm)
Overall Diameter (mm)
Tyre Size Designation
Rec. Rim Sizes Measuring
Rim is underscored Design Min Max Design Min Max
“ 65” Series
165/65 R13
5J
4½J
170
165
163
158
177
172
544 538 550
185/65 R13 5½J
6J
189
194
181
186
197
202
570 563 577
175/65 R14 5J
5½J
177
182
170
175
184
189
584 577 591
195/65 R15 6J
5½J
201
196
193
188
209
204
635 627 643
“ 60” Series
185/60 R13
5½J
6J
189
194
181
186
197
202
552 545 559
185/60 R14 5 ½J
6J
189
194
181
186
197
202
578 571 585
195/60 R15 6J
5½J
201
196
193
188
209
204
615 608 622
205/60 R15 6J
5½J
209
204
201
196
217
212
627 620 634
215/60 R16 6½J
6J
221
216
212
207
230
225
664 656 672
225/60 R16 6 ½J
6J
228
223
219
214
237
232
676 668 684
255/60 R17 7½J
7J
260
255
250
245
270
265
738 729 747
“ 55” Series
205/55 R16
6½J
6J
214
209
205
200
223
218
632
625
639
215/55 R16 7J
6½J
226
221
217
212
244
239
642 635 649
“ 50” Series
225/50 R16
7J
6½J
233
228
224
219
242
237
632 625 639
19
AIS-044 (Part 2)
ANNEXURE B LOAD CAPACITY INDICES
Li = Load-capacity index Kg = Corresponding mass of the vehicle which is to be carried
• Having a nominal section width of 185; • Having a nominal aspect ratio of 70: • Of radial-ply structure R • Having a nominal rim diameter of 14; • Having a load capacity of 580 kg, corresponding to load index 89 in
Annexure B to this Regulation; • Of Speed category T (maximum speed 190 km/h); • For fitting without an inner tube (“ tubeless” ); • Manufactured during the month MARCH of the year 2002. • Max pressure of 220 KPa or 2.25kg/cm2
The positioning and order of the markings constituting the tyre designation shall be the following: a) The size designation, comprising the nominal section width, the nominal
aspect ratio, the type-of-structure symbol (where applicable) and the nominal rim diameter shall be grouped as shown in the above example: 185/70 R 14;
b) The load index and the speed category symbol shall be placed together
near the size designation. They may either precede or follow it or be placed above or below it.
c) The symbol “ tubeless” , “ reinforced” , and “ M+S” may be at a distance
from the size – designation. Note: Arrangement of tyre marking relates to the tyre size designation. Other
markings location will be left to the discretion of the tyre manufacturer.
21
AIS-044 (Part 2)
ANNEXURE D
(Refer Para. 6.1.5) METHOD OF MEASURING PNEUMATIC TYRES
D 1.0 Mount the tyre on the measuring rim specified by the manufacturer
pursuant to para.4.1 of this Standard and inflate it to a pressure of 3 to 3.5 bar.
D 1.1 Adjust the pressure as follows (for tyres mentioned in Annexure A):
D1.1.1 In standard bias-belted tyres: to 1.7 bar;
D1.1.2 In diagonal (bias-ply) tyres to: Maximum Inflation pressure for that tyre
size.
D1.1.3 In standard radial tyres: to 1.8 bar;
D1.1.4 In reinforced tyres: to 2.3 bar;
D2.0 Condition the tyre, mounted on its rim, at the ambient room temperature for not less than 24 hours.
D3.0 Readjust the pressure to the level specified in para. D 1.1 above.
D4.0 Measure the overall width by calliper at six equally spaced points, taking
the thickness of the protective ribs or bands into account. The highest measurement so obtained is taken as the overall width.
D5.0 Determine the outer diameter by measuring the maximum circumference
and dividing the figure so obtained by (3.1416).
22
AIS-044 (Part 2)
ANNEXURE E (Refer Para. 6.2.1)
PROCEDURE FOR LOAD / SPEED PERFORMANCE TEST
E 1.0 PREPARING THE TYRE
E 1.1 Mount a new tyre on the test rim specified by the manufacturer pursuant to para. 4.1 of this Standard.
E 1.2 Inflate it to the appropriate pressure as given (in bar) in the table below:
V 3.0 3.4 3.7 3.0 3.4 - W - - - 3.2 3.6 - Y - - - - 3.6 -
E 1.3 The manufacturer may request, giving reasons, the use of a test-inflation
pressure differing from those given under para. E 1.2 above. In such a case the tyre shall be inflated to that pressure.
E 1.4 Condition the tyre-and-wheel assembly at test-room temperature for not less
than three hours.
E 1.5 Readjust the tyre pressure to that specified in para. E 1.2 or E 1.3 above.
E 2 CARRYING OUT THE TEST
E 2.1 Mount the tyre-and-wheel assembly on a test axle and press it against the outer face of a smooth wheel 1.70m ± 1% in diameter.
E 2.2 Apply to the test axle a load equal to 80% of:
E2.2.1 The maximum load rating equated to the Load Capacity Index for tyres
with Speed Symbols L to H inclusive.
E 2.2.2 The maximum load rating associated with a maximum speed of 240 km/h for tyres Speed Symbol “ V” (see para. 2.31.2 of this Standard).
E 2.2.3 The maximum load rating associated with a maximum speed of 270 km/h
for tyres with Speed Symbol W’ (see para. 2.31.3 of this Standard).
23
AIS-044 (Part 2)
E 2.2.4 The maximum load rating associated with a maximum speed of 300 km/h
for tyres with Speed Symbol Y’ (see para. 2.31.4 of this Standard). E 2.3 Throughout the test the tyre pressure must not be corrected and the test
load must be kept constant. E 2.4 During the test the temperature in the test-room must be maintained at
between 20 oC and 40 oC or at a higher temperature if the manufacturer agrees.
E 2.5 Carry the test through, without interruption in conformity with the
following particulars: E 2.5.1 Time taken to pass from zero speed to initial test speed: 10 minutes. E 2.5.2 Initial test speed: prescribed maximum speed for the type of tyre (see
para.2.28.1 of this Standard), less 40 km/h in the case of the smooth wheel having 1.70 m ± 1% in diameter or less 30 km/h in the case of the smooth wheel having 2 m ± 1% in diameter;
E 2.5.3 Successive speed increments: 10 km/h. E 2.5.4 Duration of test at each speed step except the last: 10 minutes; E 2.5.5 Duration of test at last speed step: 20 minutes; E 2.5.6 Maximum test speed: prescribed maximum speed for the type of tyre, less
10 km/h in the case of the smooth wheel having 1.7 m ± 1% in diameter or equal to the prescribed maximum speed in the case of the smooth wheel having 2 m ± 1% in diameter.
E 2.5.7 However, for tyres suitable for maximum speed of 300 km/h (Speed
Symbol Y’ ), the duration for the test is 20 minutes at the initial test speed step and 10 minutes at the last speed step.
E 2.6 However, in case of a second test is performed to assess the top
performances of a tyre type suitable for speed above 300 km/h, the procedure shall be following
E 2.6.1 Apply to the test axle a load equal to 80% of the maximum load rating
associated with the maximum speed specified by the tyre manufacture
E 2.6.2 The test shall be run without interruptions in accordance with the following:
E2.6.2.1 Ten minutes to build up from zero to the maximum speed specified by the tyre manufacturer.
E2.6.2.2 Five minutes at the maximum test speed.
24
AIS-044 (Part 2)
ANNEXURE F
(Refer Para. 6.3.1) ENDURANCE PERFORMANCE TEST
F 1.1 APPARATUS
The test wheel shall be a flat-smooth-faced wheel having diameter of 1.7 m + 1 %. The surface width of the wheel shall be more than the loaded tyre tread width. The air surrounding the tyre during the test shall be at a temperature of 20 to 40 °C, or at a higher temperature if acceptable to the tyre manufacturer.
F 1.2 PREPARATION OF TYRE FOR THE TEST
Condition the inflated tyre/rim-wheel assembly in an ambient atmosphere 20 to 40°C or higher if acceptable to the tyre manufacturer for a minimum period of 3 h. Readjust if necessary, the tyre pressure to the original inflation pressure immediately before the test.
F 1.3 TEST PROCEDURE
Mount the conditioned tyre/rim-wheel assembly on a test machine axle and press the tyre tread against the face of the test drum at the initial (Stage-1) Test Load, followed by the Test Loads stage 2 and 3, as those specified in the following table.
Table – Endurance Test Parameters
Test Inflation Pressure 180 kPa
Test Load Kg Maximum Load capability x Percentage of Maximum Load
Test speed km/h 81 Test Stage Test Period
Hrs. Percentage of Maximum Rated
Load 1 4 85 2 6 90 3 24 100
25
AIS-044 (Part 2)
ANNEXURE G
(Refer Para. 6.4.1) BEAD UNSEATING RESISTANCE TEST
G 1.1 PREPARATION OF TYRE:
Wash the tubeless test tyre for passenger car at the beads, and mount it, as a rule, on a recommended painted rim as specified in applicable specifications without the use of lubricant or adhesive. Inflate the tire to inflation pressure of 180 kPa. Allow it to stand at the room temperature for at least 3 hours and then readjust its pressure to the original inflation pressure.
G 1.2 TEST DEVICE
The test device is a standard block as shown in Fig. 2 shall be used and is forced against tyre sidewall.
G 1.3 TEST PROCEDURE
With the tyre and wheel mounted in the suitable fixture, the load shall be applied through the standard block to the center of sidewall at a rate of 50 + 1.5 mm/min with the load arm substantially parallel to the tire and rim assembly at the time of engagement. Increase the load until the bead unseats or until the applicable loads specified in Table-1 of para. 6.4.2 are met. The measurement of load shall be made at least four points approximately equally spaced around the circumference of the tyre, and the load for each measurement shall be recorded.
26
AIS-044 (Part 2)
(Ref. Para. G1.2 of Annexure G)
27
AIS-044 (Part 2)
ANNEXURE H (Refer Para. 6.6.1)
TYRE STRENGTH TEST (PLUNGER TEST)
H 1.1 APPARATUS
The equipment consists of a cylindrical steel plunger, having a hemispherical end of a diameter specified in the para. 6.6.2 for type of tyre and a device to force the plunger rod into a tyre at the rate of 50 + 1.5 mm/min.
H 1.2 PREPARATION OF TYRE FOR THE TEST
The tyre with a tube shall be mounted and inflated on a test rim of the recommended size and shall be conditioned at approximately the temperature of the room in which the test is to be conducted for at least 3 hours after which the pressure shall be adjusted, if necessary, to the test inflation pressure specified in para. 7.3.
H 1.3 TEST PROCEDURE
The plunger rod shall be forced into the tread of the tyre/wheel assembly mounted as described in para. H1.1. Perpendicularly over a tread element at the centerline of the tread, or as near as possible to avoiding penetration into a tread groove. The rate of travel of the plunger; shall be 50 ± 1.5 mm per minute until the tyre breaks or the plunger is stopped by the rim(bottoming of the plunger against the rim), in which case the tyre shall be deemed to have passed the test regardless of energy value. Measurement of force and penetration at break (or bottoming against the rim) shall be made at 5 points nearly equally spaced around the tyre circumference. The arithmetic mean energy absorbed shall be calculated from the five energy values obtained at the break, using the formula given in para. H 1.3.
H 1.4 Formula for calculating the breaking energy:
W = F X P X 10-3
2
Where W = energy at break (or bottoming) in J (Joule) F = Force at break (or bottoming) in N; and P = Penetration at break (or bottoming) in mm.
H 1.5 As an option, for purpose of conformity, if the plunger energy measurements meet or exceed the minimum value specified, it is not necessary to continue penetration of the plunger to break the tyre.
28
AIS-044 (Part 2)
ANNEXURE J
(Refer Para. 3.2) TYRE SIZE DESIGNATION
NUMERIC 4.50 -12 4PR
Ply rating Nominal rim diameter code
Nominal section width code
METRIC 215 - S R 15 Nominal rim diameter code
Radial
Speed category symbol
Nominal section width code
ALPHA NUMERIC F - 78 - 15 (BIAS) Nominal rim diameter code
Nominal aspect ratio
Load
ALPHA NUMERIC B R 78 14 (RADIAL) Nominal rim diameter code Nominal aspect ratio
Radial
Load
29
AIS-044 (Part 2)
ANNEXURE K
(Refer Para. 6.7.1) TYRE UNIFORMITY TEST
K.1.0 PREPARING THE TYRE K 1.1 Mount a new tyre on the test rim specified by the manufacturer pursuant to
para. 4.1 of this standard. K.1.2 Use a new inner tube or combination of inner tube, valve and flap (as
required) when testing tyres with inner tubes.
K.1.3 Inflate the tyre to the pressure corresponding to the pressure specified by the manufacturer.
K.1.4 Condition the tyre-and-wheel assembly at test-room temperature for not less than three hours.
K.2.0 TEST PROCEDURE K.2.1 Apply a load of 85% of rated load for rim up to 14 inch to the tyre and
warm up the tyre for two minutes at 300 - 400 rpm of tyre rotating speed. K2.2 Outer diameter of test drum shall be 854.1 ± 2.5 mm for rim diameter upto
14 inches and 1600.2 ± 2.5 mm for rim diameter above 15 or more and drum surface shall have high friction coarse textured surface
K.2.3 Adjust the inflation pressure and rotating speed of tyre to 60 rpm. K.2.4 The distance between the axis of the tyre and the axis of the drum shall be
held constant.
K.2.5 Rotate the tyre at 60 rpm and measure the components and variations of the following generated force with indicators and recorders;
Radial force variation Lateral force variation Tractive force variation Conicity and ply steer
If necessary, repeat the measurements after reversing the tyre on the
machine, or reversing the direction of the rotation.
30
AIS-044 (Part 2)
ANNEXURE L
(Refer Para. 6.8.1) TYRE STIFFNESS TEST
L.1.0 PREPARING THE TYRE L1.1 Mount a new tyre on the test rim specified by the manufacturer
pursuant to para.4.1 of this standard. L1.2 Use a new inner tube or combination of inner tube, valve and flap (as
required) when testing tyres with inner tubes. L1.3 Inflate the tyre to the pressure corresponding to the pressure specified by
the manufacturer. L1.4 Condition the tyre-and-wheel assembly at test-room temperature for not
less than three hours.
L2.0 TEST PROCEDURE L2.1 Radial Stiffness L2.1.1 Radial load shall be applied equal to its maximum load capacity.
Stiffness shall be reported for the load (difference between 80% and 20% of rated load) divided by corresponding deflection in mm.
L 2.2 Lateral Stiffness L2.2.1 Radial load shall be applied equal to its maximum load or load index. L2.2.2 Tyre or the surface on which radial load is applied shall be pulled laterally
at a speed of 50 + 1.5 mm/min by maintaining constant radial load. L2.2.3 Load required to pull tyre/surface shall be monitored and slip is
recorded when there is reduction in lateral pull load. L2.2.4 Stiffness shall be reported for the load (between 80% & 20% of maximum
lateral load) divided by corresponding displacement in mm. (surface finish of surface on which radial load is applied shall be reported in test report).
L2.3 Tangential Stiffness: L2.3.1 Radial load shall be applied equal to its maximum load or load Index.
L2.3.2 Tyre or the surface on which radial load is applied shall be pulled in the
direction of rotation of tyre at a speed of 50 + 1.5 mm/min by maintaining constant radial load.
31
AIS-044 (Part 2)
L2.3.3 Load required to pull tyre/surface shall be monitored and slip is recorded
when there is reduction in tangential pull load.
L2.3.4 Stiffness shall be reported for the load (between 80% & 20% of maximum lateral load) divided by corresponding displacement in mm. (surface finish of surface on which radial load is applied shall be reported in test report).
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AIS-044 (Part 2)
ANNEXURE M ( Refer Para 4.1 )
TECHNICAL SPECIFICATIONS TO BE SUBMITTED
BY MANUFACTURER
M1. Tyre make (trade name), brand name and type
M2. Manufacturers name and address
M3. Tyre-size designation as defined in para. 2.17 of this Regulation;
M4. The category of use (normal or special or snow);
M5. The Structure: diagonal (bias ply) or radial;
M6. The speed category;
M7. The load-capacity index or Max Permissible load;
M8. Whether the tyre is intended to be used with or without an inner tube;
M9. Normal or Reinforced
M10. Ply-Rating
M11. The overall dimensions: overall section width and outer diameter;
M12. The rims on which the tyre can be mounted;
M13. The measuring rim and test rim;
M14. The measuring pressure and test pressure ;
M15. Number and height of tread wear indicators
M16. Drawing or photographs of sidewall showing marking.
M17. Drawing or photographs of tread, which can identify tread pattern.
M18. Dimensional drawing of tyre cross-section.
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AIS-044 (Part 2)
ANNEXURE N (See Introduction)
COMMITTEE COMPOSITION
Automotive Industry Standards Committee
Chairman Shri B. Bhanot Director
The Automotive Research Association of India, Pune Members Representing Shri Alok Rawat Ministry of Road Transport & Highways, New Delhi
Shri Sushil Kumar Department of Heavy Industry, Ministry of Heavy
Industries & Public Enterprises, New Delhi Director Office of the Development Commissioner
Small Scale Industries, Ministry of Small Scale Industries, New Delhi
Shri L. R. Singh Bureau of Indian Standards, New Delhi
Shri A. S. Lakra Shri D. G. Shirke (Alternate)
Central Institute of Road Transport, Pune
Director Indian Institute of Petroleum, Dehra Dun Shri R.C. Sethi Shri N. Karuppaiah (Alternate)
Vehicles Research & Development Establishment, Ahmednagar
Shri Rajat Nandi Society of Indian Automobile Manufacturers Shri T.C. Gopalan Shri Ramakant Garg (Alternate)
Tractor Manufacturers Association, New Delhi
Shri K.N.D. Nambudiripad
Automotive Components Manufacturers Association, New Delhi
Shri G. P. Banerji Automotive Components Manufacturers Association, New Delhi
Member Secretary Mrs. Rashmi Urdhwareshe
Sr. Assistant Director The Automotive Research Association of India, Pune